Abstract: Disclosed are a method of manufacturing an RNA membrane and an RNA membrane manufactured thereby, wherein the RNA membrane can be produced at lower cost, in which the RNA membrane is composed exclusively of RNA, and thus has no toxicity in vivo, is controllable, and can be effectively applied to bio-organs such as the pericardium, as well as the production of peptides or proteins, and particularly, long linear RNA strands, which have not yet formed particles, are concentrated on the surface of a tube by inducing an evaporation process to thus activate the bonding of base pairs thereof, and the roughness and thickness of the RNA membrane can be controlled by changing the manufacturing conditions.

Abstract: Methods of modulating high mannose glycoform content of a protein in a cell culture by contacting the cells expressing the protein of interest with monesin are provided.

Abstract: Methods of determining whether a target bacteria is susceptible to an antimicrobial compound are provided. In some embodiments the methods comprise providing a sample comprising the target bacteria; maintaining the sample in the presence of an antimicrobial compound to provide an antimicrobial compound-exposed target bacterial sample; exposing the antimicrobial compound-exposed target bacterial sample to a cell-wall disruption condition; and determining the level of lysis and/or the level of remaining intact cells present in the antimicrobial compound-exposed target bacterial sample whether the cell-wall disruption condition lyses target bacterial cells present in the antimicrobial compound-exposed target bacterial sample; wherein the method is performed such that the level of lysis and/or remaining intact cells is determined without determining lysis or non-lysis on a cell-by-cell basis. In some embodiments target bacteria are not immobilized during the exposure to cell-wall disruption conditions.

Abstract: An improved technique for studying the molecular mechanisms of aging in eukaryotic cells utilizes an efficient, high-throughput microfluidic single-cell analysis chip in combination with high-resolution time-lapse microscopy. A High-throughput Yeast Aging and Analysis (HYAA) Chip has a plurality of discrete microfluidic channels grouped into a number of modules. Each module has a single medium inlet and a single medium outlet. Each channel in a module has a microfluidic chamber having a plurality of single-cell trapping structures, and features a sample inlet for introducing cells into the flow of medium through the chamber. This innovative design enables the determination of the yeast replicative lifespan in a high throughput manner.

Abstract: Chromogenic substrates for ?-D-glucuronidase activity comprising monoglucuronides of some 1,2-dihydroxyaromatic derivatives. When cleaved these form soluble coloured conjugates with multivalent metal ions such as iron ions. The substrates may be used in conjunction with chromogenic substrates for other enzymes in microbial detection and identification especially involving liquid media. Microbes can be grown in the presence of the substrates and the compounds providing the metal ion. The substrates are particularly useful for detecting ?-D-glucuronidase-positive E. coli. Synthetic methods for making the compounds are described.

Abstract: Canine subjects are screened for vector-borne diseases using Thymidine kinase (TK1) activity level alone or in conjunction with c-reactive protein (CRP) as biomarkers in the blood serum. While the canine subject may or may not display health symptoms indicative specifically of a vector-borne disease, the activity level of TK1 or in conjunction with the concentration of CRP are combined in a novel method that provides a practitioner the means of determining whether the subjects has a high probability of being affected by a vector-borne disease.

Abstract: The invention relates to a bioluminescent substrate suitably usable in a series of artificial luciferases (ALuc), and the invention provides a wavelength-shifted spectrum with a selective high intensity luminescence and high luminescence stability obtained by the use of the substrate together with ALuc. The luminescent substrate for ALuc obtained by the invention can be included together with a suitable luminescence solution in a luminescence kit. The bioluminescent substrate for ALuc of the invention can exhibit unprecedented excellent luminescence specificity and functionality in the conventional bioluminescence probe, two-hybrid assay, bioluminescent capsule, and reporter gene assay.

Abstract: Described herein is a new approach in which a nucleic acid species of interest (e.g. a chromosome) containing multiple unique target sequences is detected using multiple specific probes that are amplified by rolling circle amplification and detected. Multiple probes are used to provide a detectable signal, where the magnitude of the signal is proportional to the number of probes recognising their target sequences. Individual signals from the plurality of probes are converted into a single cumulative detectable signal, amplifying the individual signals through the multiplex probing. Ten or more probes produce a signal amplification of ten-fold or more. The generated signals depend on correctly reacted probes upon target recognition, using sequence specific hybridisation and enzymatic catalysis to generate specific products from which the signal is obtained.

Abstract: Methods, devices, systems, and kits for use in detecting and measuring infectious diseases are provided. In particular embodiments, methods, devices, systems, and kits for detecting and measuring Ebola virus, including Ebola Zaire strain virus, are provided. Devices and systems may be used within regions suffering from Ebola or other infections, providing local, rapid, and effective diagnosis of infectious diseases such as Ebola, improving treatment and reducing or preventing spread of such infectious diseases.

Abstract: The present invention provides methods, compositions and devices for stabilizing the extracellular nucleic acid population in a cell-containing biological sample using butanamide.

Abstract: The present invention provides methods, compositions and devices for stabilizing the extracellular nucleic acid population in a cell-containing biological sample using butanamide.

Abstract: Method for studying constituents of individual molecular complexes by labelling the molecules belonging to the same complex with at least one set of molecular constructs, wherein each set member includes a Unique Identifying Sequence (UIS), which is a nucleic acid sequence unique for each set member, and at least one Common Tag Sequence (CTS), which is a nucleic acid sequence common to all set members, by: attaching the molecular construct to the complex by ligating or hybridizing the molecular construct to a nucleic acid molecule of the complex, or ligating or hybridizing the tag to a nucleic acid linked to an affinity binder that binds specifically to a constituent of the complex; labelling the molecules belonging to the same complex using the molecular construct tags as primers or templates in a nucleic acid polymerization reaction; and analyzing the composition of the complex by analyzing combinations of UISs and CTSs.

Abstract: Provided herein is a biological detection system and method of use wherein the biological detection system comprises at least one mixer or liquid bridge for combining at least two liquid droplets and an error correction system for detecting whether or not proper mixing or combining of the two component droplets have occurred.

Abstract: The present invention is directed to methods, compositions and systems for capturing and analyzing sequence information contained in targeted regions of a genome. Such targeted regions may include exomes, partial exomes, introns, combinations of exonic and intronic regions, genes, panels of genes, and any other subsets of a whole genome that may be of interest.

Abstract: The present invention is directed to methods, compositions and systems for capturing and analyzing sequence information contained in targeted regions of a genome. Such targeted regions may include exomes, partial exomes, introns, combinations of exonic and intronic regions, genes, panels of genes, and any other subsets of a whole genome that may be of interest.

Abstract: The present invention is directed to methods, compositions and systems for capturing and analyzing sequence information contained in targeted regions of a genome. Such targeted regions may include exomes, partial exomes, introns, combinations of exonic and intronic regions, genes, panels of genes, and any other subsets of a whole genome that may be of interest.

Abstract: A method for the amplification of nucleic acids, in which nanoparticles in a reaction volume transfer heat to their environment through excitation. The method comprises a step of providing nanoparticles with the nucleic acids in a reaction volume and one or more heating steps. In at least one of the heating steps, the heating is achieved at least partially through the excitation of the nanoparticles. The interval of the excitation is chose to be shorter or equal to a critical excitation time.

Abstract: The invention generally relates to methods and systems for manipulating droplet size. In certain aspects, the invention provides methods for manipulating droplet size that include forming droplets of aqueous fluid surrounded by an immiscible carrier fluid, and manipulating droplet size during the forming step by adjusting pressure exerted on the aqueous fluid or the carrier fluid.

Abstract: The present invention relates to a method for specifically detecting Mycobacterium tuberculosis and nontuberculous mycobacteria by simultaneously amplifying and analyzing target genes using various primers and probes, and a kit using same. The method of the present invention is capable of selectively detecting Mycobacterium tuberculosis and nontuberculous mycobacteria with very high efficiency through a multiplex real-time polymerase chain reaction (PCR) using probes and primers specific to target genes (particularly, IS6110, 16S rRNA and ?-actin). Also, the kit of the present invention is capable of conveniently and efficiently detecting the target genes in a sample through a multiplex real-time PCR. Therefore, the method and the kit of the present invention are capable of selectively detecting with ease whether or not there is an infection with Mycobacterium tuberculosis or nontuberculous mycobacteria in a sample, and can be more accurately applied to the treatment of diseases on the basis thereof.

Abstract: The invention provides methods for determining overweight risk in a companion animal and to predict percent body fat in a young animal upon maturity. In one embodiment, a method for determining overweight risk in a companion animal can comprise measuring a relative abundance of bacteria from a microbiome of the companion animal; comparing the relative abundance of the bacteria to a relative abundance of the bacteria in a lean microbiome profile or in an overweight microbiome profile; and determining that the companion animal is at risk for being overweight if the relative abundance of bacteria is within the overweight microbiome profile or if the relative abundance of bacteria is outside the lean microbiome profile.

Abstract: Systems and methods for determining pathogens and antimicrobial resistance of pathogens in a sample are provided.

Abstract: The present invention provides improved tests for the detection: of methicillin-resistant Staphylococcus aureus bearing a variant mecA gene. The tests are particularly useful for eliminating certain false negative results due to the presence of this variant in MRSA in patient samples.

Abstract: The present application relates to biosensors, for example comprising an high-molecular weight, tandem repeating, structure-switching nucleic acid aptamers (concatemeric aptamers) to rapidly create patterned sensors via, for example, inkjet printing. These concatemeric aptamer reporters remain immobilized at the point of printing through strong adsorption but retain sufficient segmental mobility to undergo structure switching and reporter signalling to provide both qualitative and quantitative detection of one or more analytes. In certain embodiments, inkjet printing allows for the patterning of internally referenced sensors with multiplexed detection, and provides a generic platform for on-demand printing of sensors even in remote locations.

Abstract: This invention provides for compositions for use in real time nucleic acid detection processes. Such real time nucleic acid detection processes are carried out with energy transfer elements attached to nucleic acid primers, nucleotides, nucleic acid probes or nucleic acid binding agents. Real time nucleic acid detection allows for the qualitative or quantitative detection or determination of single-stranded or double-stranded nucleic acids of interest in a sample. Other processes are provided by this invention including processes for removing a portion of a homopolymeric sequence, e.g., poly A sequence or tail, from an analyte or library of analytes. Compositions useful in carrying out such removal processes are also described and provided. Paneling and multiplex analyses of more than one nucleic acid analyte using one sample are also provided.

Abstract: Disclosed herein are methods and systems to detect low-concentration analytes by transducing small electrochemical currents into easily perceived, high-contrast visual changes using a new approach termed electrocatalytic fluid displacement (EFD)

Abstract: The present invention provides methods of detecting and/or quantitating a target oligonucleotide in a biological sample.

Abstract: The present disclosure provides methods and devices for simultaneous identification of a plurality of target nucleic acid sequences in a single sample chamber that includes an addressable array of nucleic acid probes attached to a solid surface. Addressable signals can be generated and measured, in real-time, upon hybridization of target sequences at the individual probe locations within the array while the temperature of the system is varied. Such generated signals, as a function temperature, can then be used to compute the properties of nucleic acid hybridization at each addressable location which is ultimately utilized to estimate the sequence of the target nucleic acids. In particular, an integrated semiconductor biosensor array device can be used to measure the addressable signals.

Abstract: Method includes positioning a first carrier assembly on a system stage. The carrier assembly includes a support frame having an inner frame edge that defines a window of the support frame. The first carrier assembly includes a first substrate that is positioned within the window and surrounded by the inner frame edge. The first substrate has a sample thereon. The method includes detecting optical signals from the sample of the first substrate. The method also includes replacing the first carrier assembly on the system stage with a second carrier assembly on the system stage. The second carrier assembly includes the support frame and an adapter plate held by the support frame. The second carrier assembly has a second substrate held by the adapter plate that has a sample thereon.

Abstract: A sample analyzing method includes: denaturing DNA by heating a measurement specimen; bleaching the measurement specimen to inhibit autofluorescence from the measurement specimen; binding a fluorescent dye to a test substance in the measurement specimen; and capturing an image of fluorescence originated from the fluorescent dye by irradiating the measurement specimen with light. The DNA denaturation treatment is performed before the bleaching.

Abstract: This disclosure describes related novel methods for Recombinase-Polymerase Amplification (RPA) of a target DNA that exploit the properties of recombinase and related proteins, to invade double-stranded DNA with single stranded homologous DNA permitting sequence specific priming of DNA polymerase reactions. The disclosed methods have the advantage of not requiring thermocycling or thermophilic enzymes, thus offering easy and affordable implementation and portability relative to other amplification methods. Further disclosed are conditions to enable real-time monitoring of RPA reactions, methods to regulate RPA reactions using light and otherwise, methods to determine the nature of amplified species without a need for gel electrophoresis, methods to improve and optimize signal to noise ratios in RPA reactions, methods to optimize oligonucleotide primer function, methods to control carry-over contamination, and methods to employ sequence-specific third ‘specificity’ probes.

Abstract: Provided herein are methods and kits for isothermal nucleic acid amplifications that use an oligocation-oligonucleotide conjugate primer for amplifying a target nucleic acid to generate amplicons. Isothermal DNA amplification methods that employ a strand displacing DNA polymerase and polyamine-oligonucleotide conjugate primer are also provided.

Abstract: Provided herein are methods for assessing cancer, comprising analysis of sequence data from a set of cancer-related genes in a tumor sample from a subject, followed by monitoring of a subset of the set in circulating tumor-associated DNA in a fluid sample from the subject. Also provided are kits and systems for practicing any of them methods of the invention.

Abstract: Methods and compositions for the amplification of nucleic acids are disclosed. Amplification methods provided herein may be performed under isothermal conditions. Methods and compositions may include reagents such as restriction enzymes, polymerases, ligases, primers, and polynucleotide adaptors.

Abstract: A sequencing device has at least one sequencing channel configured to fluidically connect a first gap with a second gap. The sequencing channel is formed as a cavity in the region of the first gap and is formed as a pore in the region of the second gap. The pore has a smaller cross section than the cavity.

Abstract: A mechanism is provided for sequencing a biopolymer. The biopolymer is traversed from a first medium to a second medium. The biopolymer includes bases. As the biopolymer traverses from the first medium to the second medium, different forces are measured corresponding to each of the bases. The bases are distinguished from one another according to the different measured forces which are measured for each of the bases.

Abstract: An integrated semiconductor device for manipulating and processing bio-entity samples and methods are described. The device includes a lower substrate, at least one optical signal conduit disposed on the lower substrate, at least one cap bonding pad disposed on the lower substrate, a cap configured to form a capped area, and disposed on the at least one cap bonding pad, a fluidic channel, wherein a first side of the fluidic channel is formed on the lower substrate and a second side of the fluidic channel is formed on the cap, a photosensor array coupled to sensor control circuitry, and logic circuitry coupled to the fluidic control circuitry, and the sensor control circuitry.

Abstract: The invention relates to a new method of sequencing a double stranded target polynucleotide. The two strands of the double stranded target polynucleotide are linked by a bridging moiety. The two strands of the target polynucleotide are separated using a polynucleotide binding protein and the target polynucleotide is sequenced using a transmembrane pore.

Abstract: The present invention is directed to methods, compositions and systems for analyzing sequence information from targeted regions of a genome. Such targeted regions may include regions of the genome that are poorly characterized, highly polymorphic, or divergent from reference genome sequences.

Abstract: The present invention is directed to methods, compositions and systems for capturing and analyzing sequence information contained in targeted regions of a genome. Such targeted regions may include exomes, partial exomes, introns, combinations of exonic and intronic regions, genes, panels of genes, and any other subsets of a whole genome that may be of interest.

Abstract: The present invention relates to methods of genotyping for selecting an animal with a desired trait such as the level monounsaturated fats in muscle tissue, the types and/or ratio of different monounsaturated fats in muscle tissue, marbling, carcass weight, meat quality, speed of finishing, feedlot efficiency and/or consumer preference. In particular the invention relates to methods of selecting an animal with a desired trait by analysing the M-RIP, NT5M and/or TCAP genes for one or more polymorphisms.

Abstract: The subject technology relates, in part, to a method of treating Alzheimer's Disease (AD), early-stage AD, elevated risk of AD, mild cognitive impairment (MCI), or other forms of age-related cognitive decline in a subject in need thereof by administering to the subject a molecule that promotes calcium-release stabilization in ryanodine receptors (RyRs) and/or inosital triphosphate receptors (InsP3Rs) in brain cells. Diagnostic methods using calcium-release stabilizing immunophilins, junctophilins or calmodulin are also disclosed.

Abstract: The present invention is based on the discovery of genetic polymorphisms that are associated with venous thrombosis. In particular, the present invention relates to nucleic acid molecules containing the polymorphisms, variant proteins encoded by such nucleic acid molecules, reagents for detecting the polymorphic nucleic acid molecules and proteins, and methods of using the nucleic acid and proteins as well as methods of using reagents for their detection.

Abstract: This invention relates to field of screening and diagnosing adverse local tissue reactions or ALTR using proteins and genes that are elevated in patients suffering from ALTR, even those with no symptoms. The early diagnosis of the ALTR can lead to its treatment and thus, the prevention of implant failure caused by the ALTR. The elevated proteins and genes are also the basis for treatment for ALTR and provide targets for drug development and basic research.

Abstract: The present disclosure provides systems, devices, and methods for a fast-turnaround, minimally invasive, and/or cost-effective assay for screening diseases, such as genetic disorders and/or pathogens, in subjects.

Abstract: Methods for diagnosing or monitoring endometriosis in a mammal are provided. The methods include the steps of determining the expression levels of BDNF and its receptor, Ntrk2, in a biological sample from the mammal, and determining that the mammal has endometriosis when the BDNF and Ntrk2 expression levels in the sample are elevated.

Abstract: This invention provides a set of biological markers that are useful for detecting cancer. This invention further provides methods of using those biological markers for the diagnosis, prognosis, or monitoring of cancer.

Abstract: Methods and kits for qualifying the analysis of cell free DNA in e.g. plasma and serum samples are provided, based on the identification of contaminating DNA from B lymphocytes. Quantitative PCR (qPCR) can be used to detecting or determining the level of clonally rearranged immunoglobulin heavy-chain (IGH) genes, immunoglobulin kappa chain (IGK) genes, or immunoglobulin lambda-chain (IGL) genes, or a combination of any thereof. Samples identified as containing contaminating DNA can thus be identified and excluded or corrected, improving the accuracy of cf DNA determinations as a diagnostic, prognostic and treatment monitoring tool.

Abstract: Embodiments of the present disclosure concern methods and compositions for prognosis, diagnosis, and/or treatment of prostate cancer or breast cancer, for example. Certain embodiments of the disclosure concern assaying for the expression level of TDRDl. Particular embodiments concern treating an individual with a particular cancer therapy when the expression level of TDRDl is overexpressed.

Abstract: Compositions, methods and kits for genomic screening, genetic analysis, and gene discovery. In some embodiments the disclosed methods can detect large internal tandem duplications, or novel translocations, as well as identify the genomic breakpoint of novel translocations when only one of the two fusion partners is known or targeted. This is accomplished by employing a series of carefully selected capture probes to target genome-specific and disease-specific areas of target genes that harbor disease related somatic mutations, insertions/deletions or are involved in translocations.

Abstract: The invention disclosed herein is based on the identification of novel mutations in the JAK2 gene and JAK2 protein. The invention provides compositions and methods useful for diagnosing hematopoietic diseases including, for example, myeloproliferative diseases. The invention also provides compositions and methods useful for determining a prognosis of an individual diagnosed as having a hematopoietic disease.